Making quantum computers more accurate
PhD student Alex Greene studies superconducting quantum computing systems while rounding out their busy schedule with water sanitation projects.
Physicists discover a “family” of robust, superconducting graphene structures
The findings could inform the design of practical superconducting devices.
Seeing an elusive magnetic effect through the lens of machine learning
An MIT team incorporates AI to facilitate the detection of an intriguing materials phenomenon that can lead to electronics without energy dissipation.
Tiny materials lead to a big advance in quantum computing
Using ultrathin materials to reduce the size of superconducting qubits may pave the way for personal-sized quantum devices.
Physicists discover “secret sauce” behind exotic properties of a new quantum material
New work on superconducting kagome metal will aid design of other unusual quantum materials, with many potential applications.
New material could be two superconductors in one
Work has potential applications in quantum computing, and introduces new way to plumb the secrets of superconductivity.
Pablo Jarillo-Herrero receives Max Planck-Humboldt Research Award
The Max Planck Society and Alexander von Humboldt Foundation honor the MIT physicist's work on two-dimensional quantum materials.
Vinny Fry: Wired for success
MIT engineer oversees design and testing of key magnet components for the Institute's SPARC fusion project.
“Magic-angle” trilayer graphene may be a rare, magnet-proof superconductor
New findings might help inform the design of more powerful MRI machines or robust quantum computers.
Manipulating magnets in the quest for fusion
After decades of plasma physics research, Senior Research Scientist Brian LaBombard is taking on magnets for MIT’s new fusion effort.
Four MIT faculty members receive 2021 US Department of Energy early career awards
Faculty from the departments of Physics and of Nuclear Science and Engineering faculty were selected for the Early Career Research Program.
Physicists uncover secrets of world’s thinnest superconductor
First experimental evidence of spin excitations in an atomically thin material helps answer 30-year-old questions, could lead to better medical diagnostics and more.
Phonon catalysis could lead to a new field
By selectively heating specific phonons without heating the entire material, researchers have enhanced ion diffusion in a way that could have broad applications.
A graduate student who goes to extremes
Whether testing high-field fusion magnets or his own physical endurance, Theo Mouratidis pushes the limits.
MIT turns “magic” material into versatile electronic devices
Work on three graphene-based devices may yield new insights into superconductivity.